CN206176807U - Modularization refrigerating cycle energy -saving equipment - Google Patents

Abstract

The utility model provides a modularization refrigerating cycle energy -saving equipment, including modularization the integrated installation on the base barrel pump unit, compressor unit, evaporative condenser and be located the terminal evaporimeter in storehouse, the barrel pump unit includes the barrel pump pump body, the barrel pump pump body sets up on the base right side, be equipped with the space between barrel pump unit bottom and the base, be equipped with the fluorine pump who is used for the refrigerant to carry in the space, barrel pump unit one side is equipped with the compressor through supporting the installation. The utility model provides an among traditional compressor unit evaporative condenser to the partly heat of condensation that is not utilized, carried out make full use of only for the gaseous effect of cooling high temperature high pressure freon in traditional equipment, effectively avoided the waste of the energy, evaporative condenser has realized energy -saving control, in addition each component position relation of equipment set up ingenious, changed traditional large -scale refrigerating system in refrigeration plant arrange scattered phenomenon in the computer lab, saved floor area.

Description

A kind of modularization freeze cycle energy-saving equipment

Technical field

The utility model is related to compressor set technical field, more particularly to a kind of large-scale refrigeration plant, specifically refers to one kind Modularization freeze cycle energy-saving equipment.

Background technology

For refrigeration plant, in household hanging type or vertical air conditioner, the few understand large-scale refrigeration and set the cognition degree of majority It is standby, but the use of large-scale refrigeration plant is compared with small domestic appliances, there are problems that following many insoluble.

Due to the limitation of the compressed machine of compressor set, fixed-frequency control system, or part VFC can only be made, and then Cause refrigeration system starting current big, big to power network impact, system energy consumption is high；Evaporative condenser in traditional compressor set The only effect of cooling down high-temperature high pressure Freon gas, also a large portion condensation heat is not utilized, and causes the energy Waste, and evaporative condenser is not carried out Energy Saving Control；Refrigeration plant is in computer room in traditional large-scale refrigerating system Arrangement is scattered, as the big part arrangement such as compressor, evaporative condenser, barrel pump unit it is unreasonable if can take greatly Space.Safe and stable operation to user's system in the future leaves hidden danger, and operational and administrative expenses is high.

The content of the invention

The technical problems to be solved in the utility model is directed to the weak point existing for prior art, there is provided a kind of module Change freeze cycle energy-saving equipment, the equipment is optimized for two problems in above three problem, carried to a certain extent The quality of product has been risen, evaporative condenser only cooling down high-temperature high pressure Freon gas in traditional compressor set has been solved Effect, in legacy equipment, unemployed a part of condensation heat, is made full use of, and effectively prevent the wave of the energy Take, evaporative condenser realizes Energy Saving Control, equipment all parts position relationship sets ingenious in addition, changes tradition large-scale Refrigeration plant arranges scattered phenomenon in computer room in refrigeration system, saves the floor space of equipment, and equipment is cold using circulation But medium, energy consumption is low, good energy-conserving effect.

Technical solution of the present utility model is to provide a kind of following modularization freeze cycle energy-saving equipment, including mould Barrel pump unit, compressor set, evaporative condenser of the block integrated installation on base, and the end evaporator in storehouse, The barrel pump unit includes the barrel pump pump housing, and the barrel pump pump housing is arranged on base right side, the barrel pump unit bottom and base it Between be provided with space, be provided with the space for refrigerant conveying fluorine pump, the barrel pump unit side be provided with by support pacify The compressor of dress, the horizontally disposed reservoir in axial direction that the compression motor spindle is provided with reservoir, described oil eliminator is located at Reservoir and compressor away from barrel pump body side, the axially vertical setting of the oil eliminator.

Preferably, between the various pieces of the barrel pump unit, compressor set, evaporative condenser and end evaporator Connected by pipeline respectively, and form circulation loop.

It is described for even preferably, barrel pump pump housing top connects the compressor that compressor set is provided with by pipeline The pipeline for connecing the barrel pump pump housing and compressor extends to compression motor spindle, and the compressor is two groups or more, the compression Machine is connection side by side, is then upwardly extended by shunt conduit and connects compressor respectively.

Preferably, described compressor set also includes reservoir, piping and the barrel pump pump housing are connected in the outlet of reservoir Bottom connection, the compressor connects oil eliminator by pipeline, and the refrigerant after separation is passed through evaporation by the oil eliminator Formula condenser.

Preferably, institute's condensation evaporation unit is provided with evaporation cold and heat recovery device, the evaporation cold and heat recovery device is located at and steams In hairdo condenser, and between the blower fan and water-locator of evaporative condenser.

Preferably, the evaporation cold and heat recovery device is provided with refrigerant inlet and refrigerant outlet, the refrigerant enters Mouth is located at the right-hand end of evaporation cold and heat recovery device, and the refrigerant outlet is located at the left end of evaporation heat regenerator, described Refrigerant outlet is connected to condenser coil, and the condenser coil is located at water-locator bottom, and the current phase mutual connection produced with water-locator Touch, the condenser coil end connects compressor set.

Preferably, the evaporative condenser bottom is provided with water leg, and water distribution is fed the water into by water pump and pipeline Device.

Preferably, being additionally provided with water pipe on the evaporation cold and heat recovery device, the water pipe includes water inlet pipe and outlet pipe, institute State water inlet pipe to be located near one end of the position of refrigerant outlet, the outlet pipe is located at the other end of evaporation cold and heat recovery device.

Preferably, the water inlet pipe and outlet pipe are connected with the import and export of hot water storage tank respectively.

Preferably, the refrigerant outlet of oil eliminator is connected with the refrigerant inlet of evaporation cold and heat recovery device, oil is separated The oil export of device connects oil strainer.

Using the beneficial effect of the technical program：The equipment is optimized for two problems in above three problem, The quality of product is improved to a certain extent, and evaporative condenser only cooling down high-temperature is high in solving traditional compressor set The effect of Freon gas is pressed, a large portion condensation heat for also having makes full use of, and effectively prevent the waste of the energy, Evaporative condenser realizes Energy Saving Control, and equipment all parts position relationship sets ingenious in addition, changes traditional large-scale system Refrigeration plant arranges scattered phenomenon in computer room in cooling system, saves the floor space of equipment, and equipment uses circulating cooling Medium, energy consumption is low, and energy-saving effect is up to more than 25%.

Brief description of the drawings

Fig. 1 is the attachment structure schematic diagram of modularization freeze cycle energy-saving equipment.

Fig. 2 is all parts position relationship structural representation.

Fig. 3 is evaporative condenser structural representation.

Shown in figure：1st, base, 2, the barrel pump pump housing, 3, fluorine pump, 4, compressor, 5, reservoir, 6, oil eliminator, 7, evaporation Cold and heat recovery device, 8, blower fan, 9, water-locator, 10, condenser coil, 11, cold preparation import, 12, refrigerant outlet, 13, water leg, 14th, water inlet pipe, 15, outlet pipe, 16, hot water storage tank, 17, oil strainer, 18, barrel pump unit, 19, compressor set, 20, vaporation-type Condenser, 21, end evaporator.

Specific embodiment

For purposes of illustration only, below in conjunction with the accompanying drawings, a kind of modularization freeze cycle energy-saving equipment to utility model does in detail Explanation.

As shown in Figure 1 to Figure 3, a kind of modularization freeze cycle energy-saving equipment, including modularization integrated installation is in base 1 On barrel pump unit 18, compressor set 19, evaporative condenser 20, and the end evaporator 21 in storehouse, the barrel pump machine Group includes the barrel pump pump housing 2, and the barrel pump pump housing 2 is arranged on the right side of base 1, is provided between the barrel pump unit bottom and base 1 Space, is provided with the fluorine pump 3 for refrigerant conveying in the space, the barrel pump unit side is provided with by supporting the pressure installed Contracting machine 4, the bottom of the compressor 4 is provided with the horizontally disposed reservoir 5 in axial direction of reservoir 5, the oil that the compressor set is provided with Separator 6 is located at the side of reservoir 5 and compressor 4 away from the barrel pump pump housing 2, the axially vertical setting of the oil eliminator 6；Institute State and connected by pipeline respectively between the various pieces of barrel pump unit, compressor set, evaporative condenser and end evaporator, and Form circulation loop.

The top of the barrel pump pump housing 2 connects the compressor 4 that compressor set is provided with by pipeline, described for connecting barrel pump pump Body 2 extends to the bottom of compressor 4 with the pipeline of compressor 4, and the compressor 4 is two groups or more, and the compressor 4 is Connection, is then upwardly extended by shunt conduit and connect respectively compressor 4 side by side；Piping is connected in the outlet of described reservoir 5 Bottom with the barrel pump pump housing 2 is connected, and the compressor 4 connects oil eliminator 6 by pipeline, and the oil eliminator 6 is by after separation Refrigerant is passed through evaporative condenser.

Institute's condensation evaporation unit is provided with evaporation cold and heat recovery device 7, and the evaporation cold and heat recovery device 7 is located at evaporating type condensing In device, and between the blower fan 8 and water-locator 9 of evaporative condenser；The evaporation cold and heat recovery device 7 is provided with refrigerant and enters Mouth 11 and refrigerant outlet 12, the refrigerant inlet 11 are located at the right-hand end of evaporation cold and heat recovery device 7, and the refrigerant goes out Mouth 12 is located at the left end of evaporation heat regenerator, and the refrigerant outlet 12 is connected to condenser coil 10, the condenser coil 10 Positioned at the bottom of water-locator 9, and the current produced with water-locator 9 contact with each other, and the end of the condenser coil 10 connects compressor set；Institute State evaporative condenser bottom and be provided with water leg 13, and water-locator 9 is fed the water into by water pump and pipeline；Cold and hot time of the evaporation Receive and water pipe is additionally provided with device 7, the water pipe includes water inlet pipe 14 and outlet pipe 15, the water inlet pipe 14 is located at and goes out near refrigerant One end of the position of mouth, the outlet pipe 15 is located at the other end of evaporation cold and heat recovery device 7；The water inlet pipe 14 and outlet pipe 15 The import and export with hot water storage tank 16 is connected respectively.

The refrigerant outlet of oil eliminator 6 is connected with the cold preparation import 11 of evaporation cold and heat recovery device 7, oil eliminator 6 Oil export connects oil strainer 17.

It is only the effect of cooling down high-temperature high pressure Freon gas for evaporative condenser in traditional compressor set, also A large portion condensation heat is not utilized, and causes the waste of the energy, and evaporative condenser is not carried out energy-conservation control The problem of system, design can reclaim 25% or so exhaust using energy-saving wind wing water cooling frequency variable speed adjustable evaporative condenser is used Heat, for domestic hot-water or air-cooler defrosting water, can divide three mode operation geomantic omen formulas, air-cooled, operations at part load.

Arrange scattered in computer room otherwise for refrigeration plant in traditional large-scale refrigerating system, as compressor, vaporation-type The problem in a big chunk space can be taken if the big part arrangement such as condenser, barrel pump unit is unreasonable, refrigeration dress is designed Modularized production, entirety is put to dispatch from the factory compressor, evaporative condenser, barrel pump, oil eliminator, reservoir, oil cooler, economy Device, VFC case, evaporate cold and its various protection devices and concentrate in together, only need to connect the pipe of evaporator during site operation Road, increased speed of application, reduce the waste of material.

In sum, using energy-saving wind wing water cooling frequency variable speed adjustable evaporative condenser, heat reclamation device is set, is reclaimed cold Solidifying heat, can effectively reclaim 25% or so condensation heat, for air-cooler defrosting water in domestic hot-water or storehouse, evaporate it is cold can be with Frequency conversion stepless time adjustment is realized according to pressure at expulsion and liquid supply pressure, and possesses three big operational modes, geomantic omen formula, air-cooled, portion Divide load operation, can be according to system loading adjust automatically operational mode, the effective pressure stability for ensureing system especially exists When winter operation or underrun.

Modularized production, integrally dispatches from the factory, and compressor, evaporative condenser may choose whether together with unit, barrel pump, oil Separator, reservoir, oil cooler, economizer, VFC case, evaporate cold and its various protection devices and concentrate in together, it is existing Only need to connect the pipeline of evaporator during the construction of field, increased speed of application, reduce the waste of material, it is ensured that construction matter Amount, reduces the initial cost of construction cost and Party A.

In the above-described embodiments, preferred forms of the present utility model are described, it is obvious that in the utility model Inventive concept under, many changes can be still made, here, it should be noted that being made under inventive concept of the present utility model Any change is fallen within protection domain of the present utility model.

Claims (10)

1. a kind of modularization freeze cycle energy-saving equipment, it is characterized in that：Including modularization integrated installation in base（1）On barrel pump Unit（18）, compressor set（19）, evaporative condenser（20）, and the end evaporator in storehouse（21）.

2. modularization freeze cycle energy-saving equipment according to claim 1, it is characterized in that：The barrel pump unit includes barrel pump The pump housing（2）, the barrel pump pump housing（2）It is arranged on base（1）Right side, the barrel pump unit bottom and base（1）Between be provided with sky Gap, is provided with the fluorine pump for refrigerant conveying in the space（3）, the barrel pump unit side is provided with by supporting the pressure installed Contracting machine（4）, the compressor（4）Bottom is provided with reservoir（5）The horizontally disposed reservoir in axial direction（5）, the compressor set The oil eliminator being provided with（6）Positioned at reservoir（5）And compressor（4）Away from the barrel pump pump housing（2）Side, the oil eliminator （6）Axially vertical setting, the various pieces of the barrel pump unit, compressor set, evaporative condenser and end evaporator it Between connected by pipeline respectively, and form circulation loop.

3. modularization freeze cycle energy-saving equipment according to claim 2, it is characterized in that：The barrel pump pump housing（2）Top The compressor that compressor set is provided with is connect by pipeline（4）, it is described for connecting the barrel pump pump housing（2）With compressor（4）Pipeline Extend to compressor（4）Bottom, the compressor（4）It is two groups or more, the compressor（4）It is connection side by side, so Upwardly extended by shunt conduit afterwards and connect compressor respectively（4）.

4. modularization freeze cycle energy-saving equipment according to claim 3, it is characterized in that：Described reservoir（5）Go out Mouth connects piping and the barrel pump pump housing（2）Bottom connection, the compressor（4）Oil eliminator is connect by pipeline（6）, the oil Separator（6）Refrigerant after separation is passed through evaporative condenser.

5. modularization freeze cycle energy-saving equipment according to claim 4, it is characterized in that：Set on the condensation evaporation unit There is evaporation cold and heat recovery device（7）, the evaporation cold and heat recovery device（7）In evaporative condenser, and positioned at evaporating type condensing The blower fan of device（8）With water-locator（9）Between.

6. modularization freeze cycle energy-saving equipment according to claim 5, it is characterized in that：The evaporation cold and heat recovery device （7）It is provided with refrigerant inlet（11）And refrigerant outlet（12）, the refrigerant inlet（11）Positioned at evaporation cold and heat recovery device （7）Right-hand end, the refrigerant outlet（12）Positioned at the left end of evaporation heat regenerator, the refrigerant outlet（12） It is connected to condenser coil（10）, the condenser coil（10）Positioned at water-locator（9）Bottom, and and water-locator（9）The current phase of generation Mutually contact, the condenser coil（10）End connects compressor set.

7. modularization freeze cycle energy-saving equipment according to claim 6, it is characterized in that：The evaporative condenser bottom It is provided with water leg（13）, and water-locator is fed the water into by water pump and pipeline（9）.

8. modularization freeze cycle energy-saving equipment according to claim 7, it is characterized in that：The evaporation cold and heat recovery device （7）On be additionally provided with water pipe, the water pipe includes water inlet pipe（14）And outlet pipe（15）, the water inlet pipe（14）Positioned near refrigeration One end of the position of agent outlet, the outlet pipe（15）Positioned at evaporation cold and heat recovery device（7）The other end.

9. modularization freeze cycle energy-saving equipment according to claim 8, it is characterized in that：The water inlet pipe（14）And water outlet Pipe（15）Respectively with hot water storage tank（16）Import and export connection.

10. modularization freeze cycle energy-saving equipment according to claim 7, it is characterized in that：Oil eliminator（6）Refrigerant Outlet and evaporation cold and heat recovery device（7）Cold preparation import（11）Connection, oil eliminator（6）Oil export connect oil strainer （17）.